How Much Heat To Turn Water To Steam?

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To heat 120g of water from 60°C to its boiling point at 100°C, 4800 calories are needed. Once at 100°C, converting the water to steam requires an additional 64800 calories, based on the latent heat of vaporization of 540 cal/g. The total heat required for the entire process is therefore 69600 calories. The discussion emphasizes the importance of using the latent heat of vaporization for the phase change calculation rather than the specific heat of steam. Understanding these heat requirements is crucial for accurate thermal calculations in water-to-steam conversions.
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How much heat must be added to 120g of water at an initial temperature of 60C to
heat it to the boiling point?
completely convert the 100C water to steam?

Specific heat capacity of water = 1.0cal/g-C
It would take 120*1 to raise 120g of water up to 1C
difference in temperature = 100C - 60C = 40C
It would then take 120*40 to raise it to the boiling point
120*40 = 4800cal

specific heat of steam is 0.48 cal/g-C but what it the temperature of steam?
 
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Temperature of steam at 1 atm (0.101325 MPa, or 14.7 psia) is 100°C (212°F). Steam represents a phase change.

Steam however can be superheated, but that would be in a vessel with higher steam pressure, otherwise the steam expands and cools.


Remember, the problem increasing the water temperature, then transforming liquid water at 100°C to steam (water vapor) at 100°C.

See
http://hyperphysics.phy-astr.gsu.edu/hbase/thermo/phase2.html#c3
http://hyperphysics.phy-astr.gsu.edu/hbase/thermo/phase.html
 
Last edited:
But what do i use for the calculation of water to steam. Doesnt the system have to have some amount of heat added to convert it to steam.
 
You need the latent heat of vapourization of water for the last part of the calculation, not the specific heat of steam ;)
 
Look at the first link I provided.

The energy required to change a gram of a liquid into the gaseous state at the boiling point is called the "heat of vaporization". This energy breaks down the intermolecular attractive forces, and also must provide the energy necessary to expand the gas.

Converting liquid water to steam at 100°C (0.101325 MPa) requires a heat addition of 539 cal/g (2260 J/gm).
 
The latent heat for boiling is 540 cal/g. That means that 1g requires 540 cal of heat to steam

Thus, 120g requires 120 x 540 = 64800 cal to steam
 
Correct.

And then add the two heat requirements.
 

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